TY - JOUR
T1 - Isolation and characterisation of novel starch mutants of oats
AU - Verhoeven, Tamara
AU - Fahy, Brendan
AU - Leggett, J. Michael
AU - Moates, Graham
AU - Denyer, Kay
N1 - Verhoeven, T., Fahy, B., Leggett, J. M., Moates, G., Denyer, K. (2004). Isolation and characterisation of novel starch mutants of oats. Journal of Cereal Science, 40, (1), 69-79.
Sponsorship: BBSRC
PY - 2004/7
Y1 - 2004/7
N2 - Mutagenised grains of the diploid oat, Avena strigosa Schreb., were screened for altered starch granules in the endosperm. Three mutant lines were identified: mutants lam-1 and lam-2 had granules that stained red with iodine solution and sga-1 had endosperm containing soluble material that stained red with iodine solution, as well as blue-staining starch granules. The lam-1 and lam-2 lines lack or have severely reduced amounts of granule-bound starch synthase activity, the granule-bound starch synthase I protein and the amylose component of starch in the endosperm. They therefore represent mutations of the waxy type. The red-staining, soluble material in the sga-1 mutant is very similar in appearance and chain-length profile to the phytoglycogen that accumulates in the endosperms of the sugary-1 mutants of cereals. All sugary-1 mutants lack or have reduced amounts of isoamylase activity. However, native gel assays reveal a normal isoamylase activity in the developing endosperms of sga-1 suggesting that it is not of the sugary-1 type. The nature of the mutation responsible for the sga-1 phenotype has yet to be discovered.
AB - Mutagenised grains of the diploid oat, Avena strigosa Schreb., were screened for altered starch granules in the endosperm. Three mutant lines were identified: mutants lam-1 and lam-2 had granules that stained red with iodine solution and sga-1 had endosperm containing soluble material that stained red with iodine solution, as well as blue-staining starch granules. The lam-1 and lam-2 lines lack or have severely reduced amounts of granule-bound starch synthase activity, the granule-bound starch synthase I protein and the amylose component of starch in the endosperm. They therefore represent mutations of the waxy type. The red-staining, soluble material in the sga-1 mutant is very similar in appearance and chain-length profile to the phytoglycogen that accumulates in the endosperms of the sugary-1 mutants of cereals. All sugary-1 mutants lack or have reduced amounts of isoamylase activity. However, native gel assays reveal a normal isoamylase activity in the developing endosperms of sga-1 suggesting that it is not of the sugary-1 type. The nature of the mutation responsible for the sga-1 phenotype has yet to be discovered.
U2 - 10.1016/j.jcs.2004.04.004
DO - 10.1016/j.jcs.2004.04.004
M3 - Article
SN - 0733-5210
SP - 69
EP - 79
JO - Journal of Cereal Science
JF - Journal of Cereal Science
ER -